#include "support/os.h"
#include "support/Timeout.h"
-#include <boost/bind.hpp>
+#include "support/bind.h"
#include <cerrno>
#include <queue>
using namespace std;
-using boost::bind;
namespace lyx {
namespace support {
//
/////////////////////////////////////////////////////////////////////
-class Murder : public boost::signals::trackable {
+class Murder : public boost::signals2::trackable {
public:
//
static void killItDead(int secs, pid_t pid)
Murder(int secs, pid_t pid)
: timeout_(1000*secs, Timeout::ONETIME), pid_(pid)
{
- timeout_.timeout.connect(boost::bind(&Murder::kill, this));
+ timeout_.timeout.connect(lyx::bind(&Murder::kill, this));
timeout_.start();
}
void ForkedProcess::emitSignal()
{
- if (signal_.get()) {
+ if (signal_) {
signal_->operator()(pid_, retval_);
}
}
//
/////////////////////////////////////////////////////////////////////
+ForkedCall::ForkedCall(string const & path, string const & lpath)
+ : cmd_prefix_(to_filesystem8bit(from_utf8(latexEnvCmdPrefix(path, lpath))))
+{}
+
int ForkedCall::startScript(Starttype wait, string const & what)
{
return retval_;
}
- command_ = what;
+ command_ = commandPrep(trim(what));
signal_.reset();
return run(Wait);
}
int ForkedCall::startScript(string const & what, SignalTypePtr signal)
{
- command_ = what;
+ command_ = commandPrep(trim(what));
signal_ = signal;
return run(DontWait);
// generate child in background
int ForkedCall::generateChild()
{
- string line = trim(command_);
- if (line.empty())
+ if (command_.empty())
return 1;
+ // Make sure that a V2 python is run, if available.
+ string const line = cmd_prefix_ +
+ (prefixIs(command_, "python -tt")
+ ? os::python() + command_.substr(10) : command_);
+
+#if !defined (_WIN32)
+ // POSIX
+
// Split the input command up into an array of words stored
// in a contiguous block of memory. The array contains pointers
// to each word.
// 2. If we are inside quotes, then don't replace the white space
// but do remove the quotes themselves. We do this naively by
// replacing the quote with '\0' which is fine if quotes
- // delimit the entire word.
+ // delimit the entire word. However, if quotes do not delimit the
+ // entire word (i.e., open quote is inside word), simply discard
+ // them such as not to break the current word.
char inside_quote = 0;
+ char c_before_open_quote = ' ';
vector<char>::iterator it = vec.begin();
+ vector<char>::iterator itc = vec.begin();
vector<char>::iterator const end = vec.end();
- for (; it != end; ++it) {
+ for (; it != end; ++it, ++itc) {
char const c = *it;
if (!inside_quote) {
- if (c == ' ')
- *it = '\0';
- else if (c == '\'' || c == '"') {
-#if defined (_WIN32)
- // How perverse!
- // spawnvp *requires* the quotes or it will
- // split the arg at the internal whitespace!
- // Make shure the quote is a DOS-style one.
- *it = '"';
-#else
- *it = '\0';
-#endif
+ if (c == '\'' || c == '"') {
+ if (c_before_open_quote == ' ')
+ *itc = '\0';
+ else
+ --itc;
inside_quote = c;
+ } else {
+ if (c == ' ')
+ *itc = '\0';
+ else
+ *itc = c;
+ c_before_open_quote = c;
}
} else if (c == inside_quote) {
-#if defined (_WIN32)
- *it = '"';
-#else
- *it = '\0';
-#endif
+ if (c_before_open_quote == ' ')
+ *itc = '\0';
+ else
+ --itc;
inside_quote = 0;
- }
+ } else
+ *itc = c;
}
+ // Clear what remains.
+ for (; itc != end; ++itc)
+ *itc = '\0';
+
// Build an array of pointers to each word.
it = vec.begin();
vector<char *> argv;
vector<char *>::iterator ait = argv.begin();
vector<char *>::iterator const aend = argv.end();
lyxerr << "<command>\n\t" << line
- << "\n\tInterpretted as:\n\n";
+ << "\n\tInterpreted as:\n\n";
for (; ait != aend; ++ait)
if (*ait)
lyxerr << '\t'<< *ait << '\n';
lyxerr << "</command>" << endl;
}
-#ifdef _WIN32
- pid_t const cpid = spawnvp(_P_NOWAIT, argv[0], &*argv.begin());
-#else // POSIX
pid_t const cpid = ::fork();
if (cpid == 0) {
// Child
<< strerror(errno) << endl;
_exit(1);
}
+#else
+ // Windows
+
+ pid_t cpid = -1;
+
+ STARTUPINFO startup;
+ PROCESS_INFORMATION process;
+
+ memset(&startup, 0, sizeof(STARTUPINFO));
+ memset(&process, 0, sizeof(PROCESS_INFORMATION));
+
+ startup.cb = sizeof(STARTUPINFO);
+
+ if (CreateProcess(0, (LPSTR)line.c_str(), 0, 0, FALSE,
+ CREATE_NO_WINDOW, 0, 0, &startup, &process)) {
+ CloseHandle(process.hThread);
+ cpid = (pid_t)process.hProcess;
+ }
#endif
if (cpid < 0) {
Process pro = callQueue_.front();
callQueue_.pop();
// Bind our chain caller
- pro.second->connect(boost::bind(&ForkedCallQueue::callback, _1, _2));
+ pro.second->connect(callback);
ForkedCall call;
//If we fail to fork the process, then emit the signal
//to tell the outside world that it failed.
namespace ForkedCallsController {
-typedef boost::shared_ptr<ForkedProcess> ForkedProcessPtr;
+typedef shared_ptr<ForkedProcess> ForkedProcessPtr;
typedef list<ForkedProcessPtr> ListType;
typedef ListType::iterator iterator;
iterator find_pid(pid_t pid)
{
return find_if(forkedCalls.begin(), forkedCalls.end(),
- bind(equal_to<pid_t>(),
- bind(&ForkedCall::pid, _1),
+ lyx::bind(equal_to<pid_t>(),
+ lyx::bind(&ForkedCall::pid, _1),
pid));
}
} else {
actCall->setRetValue(exit_code);
}
+ CloseHandle(hProcess);
remove_it = true;
break;
}
lyxerr << "WaitForSingleObject failed waiting for child\n"
<< getChildErrorMessage() << endl;
actCall->setRetValue(1);
+ CloseHandle(hProcess);
remove_it = true;
break;
}